Commercial development of the globe's huge reserves of a frozen fossil fuel <http://www.independent.co.uk/topic/fossil-fuels> known as “combustible ice” has moved closer to reality after Japan <http://www.independent.co.uk/topic/Japan> and China <http://www.independent.co.uk/topic/China> successfully extracted the material from the seafloor off their coastlines.
But experts said Friday that large-scale production remains many years away — and if not done properly could flood the atmosphere with climate-changing greenhouse gases <http://www.independent.co.uk/topic/greenhouse-gas-emissions>. Combustible ice is a frozen mixture of water and concentrated natural gas. Technically known as methane hydrate, it can be lit on fire in its frozen state and is believed to comprise one of the world's most abundant fossil fuels. The official Chinese news agency Xinhua reported that the fuel was successfully mined by a drilling rig operating in the South China Sea on Thursday. Chinese Minister of Land and Resources Jiang Daming declared the event a breakthrough moment heralding a potential “global energy revolution.” - READ MORE Sea ice 'to vanish from Arctic Ocean' as warming rate 'underestimated' <http://www.independent.co.uk/news/science/arctic-ocean-no-ice-free-by-2040-global-warming-climate-change-scientists-sea-temperatures-a7719011.html> A drilling crew in Japan reported a similar successful operation two weeks earlier, on 4 May offshore the Shima Peninsula. For Japan, methane hydrate offers the chance to reduce its heavy reliance of imported fuels if it can tap into reserves off its coastline. In China, it could serve as a cleaner substitute for coal-burning power plants and steel factories that have polluted much of the country with lung-damaging smog. The South China Sea has become a focal point of regional political tensions as China has claimed huge swaths of disputed territory as its own. Previous sea oil exploration efforts by China met resistance, especially from Vietnam, but its methane hydrate operation was described as being outside the most hotly contested areas. Methane hydrate has been found beneath seafloors and buried inside Arctic permafrost and beneath Antarctic ice. The United States and India also have research programme pursuing technologies to capture the fuel. Estimates of worldwide reserves range from 280 trillion cubic metres (10,000 trillion cubic feet) up to 2,800 trillion cubic metres (100,000 trillion cubic feet), according to the US Energy Information Administration. By comparison, total worldwide production of natural gas was 3.5 billion cubic metres (124 billion cubic feet) in 2015, the most recent year available. That means methane hydrate reserves could meet global gas demands for 80 to 800 years at current consumption rates. Japan first extracted some of the material in 2013 but ended the effort due to sand from the seafloor clogging machinery, according to the country's Ministry of Economy Trade and Tourism. Yet efforts to successfully extract the fuel at a profit have eluded private and state-owned energy companies for decades. That's in part because of the high cost of extraction techniques, which can use large amounts of water or carbon dioxide to flood methane hydrate reserves so the fuel can be released and brought to the surface. There are also environmental concerns. If methane hydrate leaks during the extraction process, it can increase greenhouse gas emissions. The fuel also could displace renewables such as solar and wind power, said David Sandalow, a former senior official with the US State Department now at Columbia University's Center on Global Energy Policy. However, if it can be used without leaking, it has the potential to replace dirtier coal in the power sector. “The climate implications of producing natural gas hydrates are complicated. There are potential benefits, but substantial risks,” Sandalow said. Commercial-scale production could be “transformative for northeast Asia, particularly for Japan, which imports nearly all its hydrocarbon needs,” said James Taverner, a senior energy industry researcher at IHS Market, a London-based consulting firm. http://www.independent.co.uk/news/science/japan-china-combustible-ice-frozen-fossil-fuel-extract-seafloor-energy-methane-hydrate-a7744456.html https://www.youtube.com/watch?v=WCnXp_c9stg&feature=youtu.be -- OK Taufik Sent from my Computer® ---------------------------------------------------- Joint Convention Malang 2017 (HAGI-IAGI-IAFMI-IATMI) 25-28 September 2017 Ijen Suites Hotel Malang, Jawa Timur www.jointconvex.or.id ---------------------------------------------------- Iuran tahunan Rp.250.000,- (profesional) dan Rp.100.000,- (mahasiswa) Pembayaran iuran anggota ditujukan ke: Bank Mandiri Cab. Wisma Alia Jakarta (a/n IAGI) No. Rek: 123 0085005314 Bank BCA KCP. Manara Mulia (A/n: Shinta Damayanti) No. Rekening: 255-1088580 ---------------------------------------------------- Subscribe: iagi-net-subscr...@iagi.or.id Unsubscribe: iagi-net-unsubscr...@iagi.or.id ---------------------------------------------------- DISCLAIMER: IAGI disclaims all warranties with regard to information posted on its mailing lists, whether posted by IAGI or others. In no event shall IAGI or its members be liable for any, including but not limited to direct or indirect damages, or damages of any kind whatsoever, resulting from loss of use, data or profits, arising out of or in connection with the use of any information posted on IAGI mailing list.